Environmental conditioning systems and methods utilizing polyvinylidene fluoride (PVDF) foam ducts

What is claimed is: 1. A system comprising: a duct network comprising a plurality of foam ducts configured to distribute a gas media; a plurality of foam bellows configured to couple the foam ducts to each other to form the duct network; and a plurality of structural fastening systems configured to couple the foam ducts and/or the foam bellows to a support structure, wherein the structural fastening systems comprise: a plurality of first structural fastening systems comprising a slip-fit fastening system, wherein the slip-fit fastening system allows movement of the foam duct in an axial direction; a plurality of second structural fastening systems comprising a fixed fastening system, wherein the fixed fastening system restrains movement of the foam duct in a radial and the axial direction; a plurality of third structural fastening systems comprising a flange fastening system; a plurality of brackets configured to mechanically couple the structural fastening systems to the support structure; and wherein the first structural fastening system comprises two or more support rings and a tie strap, the support rings are coupled to each other around a perimeter of the foam duct, at least one support ring is adhesively bonded to an outer surface of the foam duct, at least one support ring is free to move along the outer surface, and the tie strap encircles the support rings and the bracket to couple the foam duct to the bracket. 2. The system of claim 1 , wherein: the foam ducts comprise a polyvinylidene fluoride (PVDF) material; the foam ducts are cylindrical with an inner diameter approximately one and one-half inches to ten inches and an outer diameter approximately two and one-half inches to twelve inches; and wherein a foam duct sidewall thickness is approximately one-half inch to one inch. 3. The system of claim 1 , further comprising: a plurality of openings each comprising an angled orifice formed along a surface of each of the plurality of foam ducts to provide for directional flow of the gas media. 4. The system of claim 1 , further comprising: a beaded cylindrical ring adhesively bonded to each end of the foam duct at an outer surface, wherein the beaded cylindrical ring comprises a thermoplastic material. 5. The system of claim 1 , wherein the foam bellows comprise: a polyvinylidene fluoride (PVDF) material; a convoluted cylindrical shape comprising one or more foam bellow folds and a flat lip on each end with an inner diameter substantially equal to an outer diameter of a beaded cylindrical ring; and wherein the foam bellows provide for expansion and/or contraction of the foam ducts within the duct network. 6. The system of claim 1 , wherein: the second structural fastening system comprises two or more support rings and a tie strap; the support rings are coupled to each other around a perimeter of the foam duct; the support rings are adhesively bonded to an outer surface of the foam duct; and wherein the tie strap encircles the support rings and the bracket to couple the foam duct to the bracket. 7. The system of claim 1 , wherein the brackets comprise a tangential support bracket and/or a circumferential support bracket, and wherein the structural fastening systems are configured to couple the foam ducts and/or the foam bellows to the support structure of an engine section of a launch vehicle. 8. A method of assembling the duct network of claim 1 , the method comprising: coupling at least two of the plurality of foam ducts to each other using at least one of the plurality of foam bellows; and coupling the foam ducts and/or the foam bellows to the support structure using one or more structural fastening systems. 9. A method of using the system of claim 1 , the method comprising: receiving the gas media; and distributing the gas media through the duct network. 10. A method of providing a duct network, the method comprising: providing a plurality of foam ducts; providing a plurality of foam bellows; providing a plurality of structural fastening systems; coupling the foam ducts to each other using the foam bellows; and coupling the foam ducts and/or the foam bellows to a support structure using the structural fastening systems, wherein the structural fastening systems comprise: a plurality of first structural fastening systems comprising a slip-fit fastening system, wherein the slip-fit fastening system allows movement of the foam duct in an axial direction; a plurality of second structural fastening systems comprising a fixed fastening system; a plurality of third structural fastening systems comprising a flange fastening system; a plurality of brackets configured to mechanically couple the structural fastening systems to the support structure; and wherein the first and second structural fastening systems each comprise two or more support rings and a tie strap, the support rings of each first and second structural fastening system are coupled to each other around a perimeter of the foam duct, at least one support ring of the first structural fastening system is free to move along an outer surface of the foam duct, the two or more support ring of the second structural fastening system are adhesively bonded to the outer surface of the foam duct, and the tie strap of each first and second structural fastening system encircles corresponding support rings and the bracket to couple the foam duct to the bracket. 11. The method of claim 10 , wherein: the foam ducts comprise a polyvinylidene fluoride (PVDF) material; the foam ducts are cylindrical with an inner diameter approximately two inches to ten inches and an outer diameter approximately three inches to twelve inches; and wherein a foam duct sidewall thickness is approximately one-half inch to one inch. 12. The method of claim 10 , wherein: the providing the foam ducts comprises forming a plurality of openings each comprising an angled orifice along a surface of each of the plurality of foam ducts to provide for directional flow of a gas media. 13. The method of claim 10 , wherein: the providing the foam ducts comprises adhesively bonding a beaded cylindrical ring to each end of the foam duct at an outer surface; and the beaded cylindrical ring comprises a thermoplastic material. 14. The method of claim 10 , wherein: the foam bellows comprise a convoluted cylindrical shape comprising one or more foam bellow folds and a flat lip on each end with an inner diameter substantially equal to an outer diameter of a beaded cylindrical ring; the foam bellows comprise a polyvinylidene fluoride (PVDF) material; and wherein the foam bellows provide for expansion and/or contraction of the foam ducts within the duct network. 15. The method of claim 10 , wherein the coupling the foam ducts to each other comprises: placing the foam bellows around a beaded cylindrical ring to align a flat lip of the foam bellows and a bead of the beaded cylindrical ring; and physically coupling the flat lip of the foam bellows to the bead of the beaded cylindrical ring. 16. The method of claim 10 , wherein: the coupling comprises coupling the foam ducts and/or the foam bellows to the support structure using one or more structural fastening systems, and wherein the support structure is coupled to an engine section of a launch vehicle. 17. A system comprising: a duct network comprising a plurality of foam ducts configured to distribute a gas media; a plurality of foam bellows configured to couple the foam ducts to each other to form the duct network; and a plurality of structural fa